A Hybrid Blockchain Architecture for Cross-Platform Transaction
Loading...
Date
Journal Title
Journal ISSN
Volume Title
Publisher
Department of Computer Science and Engineering(CSE), Islamic University of Technology(IUT), Board Bazar, Gazipur, Bangladesh
Abstract
Blockchain has emerged as one of the most significant technological breakthroughs
in software design and technology over the past ten years. Existing blockchain architectures
have two major limitations: first, the blockchain itself is vulnerable
to attacks such as double spending, selfish mining and IoT smart devices, and
distributed denial of service attacks, are also vulnerable once hackers successfully
infiltrate blockchain systems; second, because IoT devices are heterogeneous and
have resource limitations, implementation of current blockchain systems in the
IoT scenario cannot reflect strong adaptability and meet IoT s requirements; and
third, because IoT devices are heterogeneous and have resource constraints Our
research focuses on the development of a hybrid architecture that facilitates the
exchange of assets across multiple blockchains while also improving the privacy of
the current blockchain by ensuring data integrity and data integrity fidelity.
Description
Supervised by
Dr. Md Moniruzzaman
Assistant Professor
and
Faisal Hussain
Lecturer
Department of Computer Science and Engineering(CSE),
Islamic University of Technology (IUT)
Board Bazar, Gazipur-1704, Bangladesh.
This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Software Engineering of Computer Science and Engineering department, 2022.
Citation
[1] Monrat, A.A., Schel´en, O. and Andersson, K., 2019. A survey of blockchain from the perspectives of applications, challenges, and opportunities. IEEE Access, 7, pp.117134-117151. [2] Wang, X., Zha, X., Ni, W., Liu, R.P., Guo, Y.J., Niu, X. and Zheng, K., 2019. Survey on blockchain for Internet of Things. Computer Communications, 136, pp.10-29. [3] Ghosh, A., Gupta, S., Dua, A. and Kumar, N., 2020. Security of Cryptocurrencies in blockchain technology: State-of-art, challenges and future prospects. Journal of Network and Computer Applications, 163, p.102635. [4] Du, M., Wang, K., Liu, Y., Qian, K., Sun, Y., Xu, W. and Guo, S., 2020. Spacechain: a three-dimensional blockchain architecture for IoT security. IEEE Wireless Communications, 27(3), pp.38-45. [5] Singh, A., Click, K., Parizi, R.M., Zhang, Q., Dehghantanha, A. and Choo, K.K.R., 2020. Sidechain technologies in blockchain networks: An examination and state-of-the-art review. Journal of Network and Computer Applications, 149, p.102471. [6] Lin, S., Kong, Y. and Nie, S., 2021, January. Overview of Block Chain Cross Chain Technology. In 2021 13th International Conference on Measuring Technology and Mechatronics Automation (ICMTMA) (pp. 357-360). IEEE. [7] Lacity, M.C., 2018. Addressing key challenges to making enterprise blockchain applications a reality. MIS Quarterly Executive, 17(3). [8] Liu, Y., Wang, K., Lin, Y. and Xu, W., 2019. LightChain: a lightweight blockchain system for industrial internet of things. IEEE Transactions on Industrial Informatics, 15(6), pp.3571-3581. 41 [9] Liu, Y., Wang, K., Qian, K., Du, M. and Guo, S., 2019. Tornado: Enabling blockchain in heterogeneous Internet of Things through a space-structured approach. IEEE Internet of Things Journal, 7(2), pp.1273-1286. [10] Robinson, P., Ramesh, R. and Johnson, S., 2022. Atomic crosschain transactions for ethereum private sidechains. Blockchain: Research and Applications, 3(1), p.100030. [11] Kan, J., Chen, S. and Huang, X., 2018, August. Improve blockchain performance using graph data structure and parallel mining. In 2018 1st IEEE International Conference on Hot Information-Centric Networking (HotICN) (pp. 173-178). IEEE. [12] Back, A., Corallo, M., Dashjr, L., Friedenbach, M., Maxwell, G., Miller, A., Poelstra, A., Tim´on, J. and Wuille, P., 2014. Enabling blockchain innovations with pegged sidechains. URL: http://www. opensciencereview. com/papers/123/enablingblockchain-innovations-with-pegged-sidechains, 72. [13] Buterin, V., 2014. A next-generation smart contract and decentralized application platform. white paper, 3(37), pp.2-1. [14] Wu, M., Wang, K., Cai, X., Guo, S., Guo, M. and Rong, C., 2019. A comprehensive survey of blockchain: From theory to IoT applications and beyond. IEEE Internet of Things Journal, 6(5), pp.8114-8154. [15] Yu, Y., Li, Y., Tian, J. and Liu, J., 2018. Blockchain-based solutions to security and privacy issues in the internet of things. IEEE Wireless Communications, 25(6), pp.12-18. [16] Xu, C., Wang, K., Li, P., Guo, S., Luo, J., Ye, B. and Guo, M., 2018. Making big data open in edges: A resource-efficient blockchain-based approach. IEEE Transactions on Parallel and Distributed Systems, 30(4), pp.870-882. [17] Xu, C., Wang, K. and Guo, M., 2017. Intelligent resource management in blockchain-based cloud datacenters. IEEE Cloud Computing, 4(6), pp.50-59. 42 [18] Eyal, I. and Sirer, E.G., 2014, March. Majority is not enough: Bitcoin mining is vulnerable. In International conference on financial cryptography and data security (pp. 436-454). Springer, Berlin, Heidelberg. [19] Vukoli´c, M., 2015, October. The quest for scalable blockchain fabric: Proofof-work vs. BFT replication. In International workshop on open problems in network security (pp. 112-125). Springer, Cham. [20] Singh, M., Singh, A. and Kim, S., 2018, February. Blockchain: A game changer for securing IoT data. In 2018 IEEE 4th World Forum on Internet of Things (WF-IoT) (pp. 51-55). IEEE.